/*
 * Copyright (c) 2023, Alliance for Open Media. All rights reserved
 *
 * This source code is subject to the terms of the BSD 2 Clause License and
 * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
 * was not distributed with this source code in the LICENSE file, you can
 * obtain it at www.aomedia.org/license/software. If the Alliance for Open
 * Media Patent License 1.0 was not distributed with this source code in the
 * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
 */

#include <arm_neon.h>

#include "aom_dsp_rtcd.h"
#include "mem_neon.h"
#include "sum_neon.h"

static INLINE void highbd_sse_8x1_init_neon(const uint16_t *src, const uint16_t *ref, uint32x4_t *sse_acc0,
                                            uint32x4_t *sse_acc1) {
    uint16x8_t s = vld1q_u16(src);
    uint16x8_t r = vld1q_u16(ref);

    uint16x8_t abs_diff    = vabdq_u16(s, r);
    uint16x4_t abs_diff_lo = vget_low_u16(abs_diff);
    uint16x4_t abs_diff_hi = vget_high_u16(abs_diff);

    *sse_acc0 = vmull_u16(abs_diff_lo, abs_diff_lo);
    *sse_acc1 = vmull_u16(abs_diff_hi, abs_diff_hi);
}

static INLINE void highbd_sse_8x1_neon(const uint16_t *src, const uint16_t *ref, uint32x4_t *sse_acc0,
                                       uint32x4_t *sse_acc1) {
    uint16x8_t s = vld1q_u16(src);
    uint16x8_t r = vld1q_u16(ref);

    uint16x8_t abs_diff    = vabdq_u16(s, r);
    uint16x4_t abs_diff_lo = vget_low_u16(abs_diff);
    uint16x4_t abs_diff_hi = vget_high_u16(abs_diff);

    *sse_acc0 = vmlal_u16(*sse_acc0, abs_diff_lo, abs_diff_lo);
    *sse_acc1 = vmlal_u16(*sse_acc1, abs_diff_hi, abs_diff_hi);
}

static INLINE int64_t highbd_sse_128xh_neon(const uint16_t *src, int src_stride, const uint16_t *ref, int ref_stride,
                                            int height) {
    uint32x4_t sse[8];
    highbd_sse_8x1_init_neon(src + 0 * 8, ref + 0 * 8, &sse[0], &sse[1]);
    highbd_sse_8x1_init_neon(src + 1 * 8, ref + 1 * 8, &sse[2], &sse[3]);
    highbd_sse_8x1_init_neon(src + 2 * 8, ref + 2 * 8, &sse[4], &sse[5]);
    highbd_sse_8x1_init_neon(src + 3 * 8, ref + 3 * 8, &sse[6], &sse[7]);
    highbd_sse_8x1_neon(src + 4 * 8, ref + 4 * 8, &sse[0], &sse[1]);
    highbd_sse_8x1_neon(src + 5 * 8, ref + 5 * 8, &sse[2], &sse[3]);
    highbd_sse_8x1_neon(src + 6 * 8, ref + 6 * 8, &sse[4], &sse[5]);
    highbd_sse_8x1_neon(src + 7 * 8, ref + 7 * 8, &sse[6], &sse[7]);
    highbd_sse_8x1_neon(src + 8 * 8, ref + 8 * 8, &sse[0], &sse[1]);
    highbd_sse_8x1_neon(src + 9 * 8, ref + 9 * 8, &sse[2], &sse[3]);
    highbd_sse_8x1_neon(src + 10 * 8, ref + 10 * 8, &sse[4], &sse[5]);
    highbd_sse_8x1_neon(src + 11 * 8, ref + 11 * 8, &sse[6], &sse[7]);
    highbd_sse_8x1_neon(src + 12 * 8, ref + 12 * 8, &sse[0], &sse[1]);
    highbd_sse_8x1_neon(src + 13 * 8, ref + 13 * 8, &sse[2], &sse[3]);
    highbd_sse_8x1_neon(src + 14 * 8, ref + 14 * 8, &sse[4], &sse[5]);
    highbd_sse_8x1_neon(src + 15 * 8, ref + 15 * 8, &sse[6], &sse[7]);

    src += src_stride;
    ref += ref_stride;

    while (--height != 0) {
        highbd_sse_8x1_neon(src + 0 * 8, ref + 0 * 8, &sse[0], &sse[1]);
        highbd_sse_8x1_neon(src + 1 * 8, ref + 1 * 8, &sse[2], &sse[3]);
        highbd_sse_8x1_neon(src + 2 * 8, ref + 2 * 8, &sse[4], &sse[5]);
        highbd_sse_8x1_neon(src + 3 * 8, ref + 3 * 8, &sse[6], &sse[7]);
        highbd_sse_8x1_neon(src + 4 * 8, ref + 4 * 8, &sse[0], &sse[1]);
        highbd_sse_8x1_neon(src + 5 * 8, ref + 5 * 8, &sse[2], &sse[3]);
        highbd_sse_8x1_neon(src + 6 * 8, ref + 6 * 8, &sse[4], &sse[5]);
        highbd_sse_8x1_neon(src + 7 * 8, ref + 7 * 8, &sse[6], &sse[7]);
        highbd_sse_8x1_neon(src + 8 * 8, ref + 8 * 8, &sse[0], &sse[1]);
        highbd_sse_8x1_neon(src + 9 * 8, ref + 9 * 8, &sse[2], &sse[3]);
        highbd_sse_8x1_neon(src + 10 * 8, ref + 10 * 8, &sse[4], &sse[5]);
        highbd_sse_8x1_neon(src + 11 * 8, ref + 11 * 8, &sse[6], &sse[7]);
        highbd_sse_8x1_neon(src + 12 * 8, ref + 12 * 8, &sse[0], &sse[1]);
        highbd_sse_8x1_neon(src + 13 * 8, ref + 13 * 8, &sse[2], &sse[3]);
        highbd_sse_8x1_neon(src + 14 * 8, ref + 14 * 8, &sse[4], &sse[5]);
        highbd_sse_8x1_neon(src + 15 * 8, ref + 15 * 8, &sse[6], &sse[7]);

        src += src_stride;
        ref += ref_stride;
    }

    return horizontal_long_add_u32x4_x8(sse);
}

static INLINE int64_t highbd_sse_64xh_neon(const uint16_t *src, int src_stride, const uint16_t *ref, int ref_stride,
                                           int height) {
    uint32x4_t sse[8];
    highbd_sse_8x1_init_neon(src + 0 * 8, ref + 0 * 8, &sse[0], &sse[1]);
    highbd_sse_8x1_init_neon(src + 1 * 8, ref + 1 * 8, &sse[2], &sse[3]);
    highbd_sse_8x1_init_neon(src + 2 * 8, ref + 2 * 8, &sse[4], &sse[5]);
    highbd_sse_8x1_init_neon(src + 3 * 8, ref + 3 * 8, &sse[6], &sse[7]);
    highbd_sse_8x1_neon(src + 4 * 8, ref + 4 * 8, &sse[0], &sse[1]);
    highbd_sse_8x1_neon(src + 5 * 8, ref + 5 * 8, &sse[2], &sse[3]);
    highbd_sse_8x1_neon(src + 6 * 8, ref + 6 * 8, &sse[4], &sse[5]);
    highbd_sse_8x1_neon(src + 7 * 8, ref + 7 * 8, &sse[6], &sse[7]);

    src += src_stride;
    ref += ref_stride;

    while (--height != 0) {
        highbd_sse_8x1_neon(src + 0 * 8, ref + 0 * 8, &sse[0], &sse[1]);
        highbd_sse_8x1_neon(src + 1 * 8, ref + 1 * 8, &sse[2], &sse[3]);
        highbd_sse_8x1_neon(src + 2 * 8, ref + 2 * 8, &sse[4], &sse[5]);
        highbd_sse_8x1_neon(src + 3 * 8, ref + 3 * 8, &sse[6], &sse[7]);
        highbd_sse_8x1_neon(src + 4 * 8, ref + 4 * 8, &sse[0], &sse[1]);
        highbd_sse_8x1_neon(src + 5 * 8, ref + 5 * 8, &sse[2], &sse[3]);
        highbd_sse_8x1_neon(src + 6 * 8, ref + 6 * 8, &sse[4], &sse[5]);
        highbd_sse_8x1_neon(src + 7 * 8, ref + 7 * 8, &sse[6], &sse[7]);

        src += src_stride;
        ref += ref_stride;
    }

    return horizontal_long_add_u32x4_x8(sse);
}

static INLINE int64_t highbd_sse_32xh_neon(const uint16_t *src, int src_stride, const uint16_t *ref, int ref_stride,
                                           int height) {
    uint32x4_t sse[8];
    highbd_sse_8x1_init_neon(src + 0 * 8, ref + 0 * 8, &sse[0], &sse[1]);
    highbd_sse_8x1_init_neon(src + 1 * 8, ref + 1 * 8, &sse[2], &sse[3]);
    highbd_sse_8x1_init_neon(src + 2 * 8, ref + 2 * 8, &sse[4], &sse[5]);
    highbd_sse_8x1_init_neon(src + 3 * 8, ref + 3 * 8, &sse[6], &sse[7]);

    src += src_stride;
    ref += ref_stride;

    while (--height != 0) {
        highbd_sse_8x1_neon(src + 0 * 8, ref + 0 * 8, &sse[0], &sse[1]);
        highbd_sse_8x1_neon(src + 1 * 8, ref + 1 * 8, &sse[2], &sse[3]);
        highbd_sse_8x1_neon(src + 2 * 8, ref + 2 * 8, &sse[4], &sse[5]);
        highbd_sse_8x1_neon(src + 3 * 8, ref + 3 * 8, &sse[6], &sse[7]);

        src += src_stride;
        ref += ref_stride;
    }

    return horizontal_long_add_u32x4_x8(sse);
}

static INLINE int64_t highbd_sse_16xh_neon(const uint16_t *src, int src_stride, const uint16_t *ref, int ref_stride,
                                           int height) {
    uint32x4_t sse[4];
    highbd_sse_8x1_init_neon(src + 0 * 8, ref + 0 * 8, &sse[0], &sse[1]);
    highbd_sse_8x1_init_neon(src + 1 * 8, ref + 1 * 8, &sse[2], &sse[3]);

    src += src_stride;
    ref += ref_stride;

    while (--height != 0) {
        highbd_sse_8x1_neon(src + 0 * 8, ref + 0 * 8, &sse[0], &sse[1]);
        highbd_sse_8x1_neon(src + 1 * 8, ref + 1 * 8, &sse[2], &sse[3]);

        src += src_stride;
        ref += ref_stride;
    }

    return horizontal_long_add_u32x4_x4(sse);
}

static INLINE int64_t highbd_sse_8xh_neon(const uint16_t *src, int src_stride, const uint16_t *ref, int ref_stride,
                                          int height) {
    uint32x4_t sse[2];
    highbd_sse_8x1_init_neon(src, ref, &sse[0], &sse[1]);

    src += src_stride;
    ref += ref_stride;

    while (--height != 0) {
        highbd_sse_8x1_neon(src, ref, &sse[0], &sse[1]);

        src += src_stride;
        ref += ref_stride;
    }

    return horizontal_long_add_u32x4_x2(sse);
}

static INLINE int64_t highbd_sse_4xh_neon(const uint16_t *src, int src_stride, const uint16_t *ref, int ref_stride,
                                          int height) {
    // Peel the first loop iteration.
    uint16x4_t s = vld1_u16(src);
    uint16x4_t r = vld1_u16(ref);

    uint16x4_t abs_diff = vabd_u16(s, r);
    uint32x4_t sse      = vmull_u16(abs_diff, abs_diff);

    src += src_stride;
    ref += ref_stride;

    while (--height != 0) {
        s = vld1_u16(src);
        r = vld1_u16(ref);

        abs_diff = vabd_u16(s, r);
        sse      = vmlal_u16(sse, abs_diff, abs_diff);

        src += src_stride;
        ref += ref_stride;
    }

    return vaddlvq_u32(sse);
}

static INLINE int64_t highbd_sse_wxh_neon(const uint16_t *src, int src_stride, const uint16_t *ref, int ref_stride,
                                          int width, int height) {
    // { 0, 1, 2, 3, 4, 5, 6, 7 }
    uint16x8_t k01234567      = vmovl_u8(vcreate_u8(0x0706050403020100));
    uint16x8_t remainder_mask = vcltq_u16(k01234567, vdupq_n_u16(width & 7));
    uint64_t   sse            = 0;

    do {
        int w      = width;
        int offset = 0;

        do {
            uint16x8_t s = vld1q_u16(src + offset);
            uint16x8_t r = vld1q_u16(ref + offset);

            if (w < 8) {
                // Mask out-of-range elements.
                s = vandq_u16(s, remainder_mask);
                r = vandq_u16(r, remainder_mask);
            }

            uint16x8_t abs_diff    = vabdq_u16(s, r);
            uint16x4_t abs_diff_lo = vget_low_u16(abs_diff);
            uint16x4_t abs_diff_hi = vget_high_u16(abs_diff);

            uint32x4_t sse_u32 = vmull_u16(abs_diff_lo, abs_diff_lo);
            sse_u32            = vmlal_u16(sse_u32, abs_diff_hi, abs_diff_hi);

            sse += vaddlvq_u32(sse_u32);

            offset += 8;
            w -= 8;
        } while (w > 0);

        src += src_stride;
        ref += ref_stride;
    } while (--height != 0);

    return sse;
}

int64_t svt_aom_highbd_sse_neon(const uint8_t *src8, int src_stride, const uint8_t *ref8, int ref_stride, int width,
                                int height) {
    uint16_t *src = (uint16_t *)src8;
    uint16_t *ref = (uint16_t *)ref8;

    switch (width) {
    case 4: return highbd_sse_4xh_neon(src, src_stride, ref, ref_stride, height);
    case 8: return highbd_sse_8xh_neon(src, src_stride, ref, ref_stride, height);
    case 16: return highbd_sse_16xh_neon(src, src_stride, ref, ref_stride, height);
    case 32: return highbd_sse_32xh_neon(src, src_stride, ref, ref_stride, height);
    case 64: return highbd_sse_64xh_neon(src, src_stride, ref, ref_stride, height);
    case 128: return highbd_sse_128xh_neon(src, src_stride, ref, ref_stride, height);
    default: return highbd_sse_wxh_neon(src, src_stride, ref, ref_stride, width, height);
    }
}

uint64_t svt_full_distortion_kernel16_bits_neon(uint8_t *input8, uint32_t input_offset, uint32_t input_stride,
                                                uint8_t *recon8, int32_t recon_offset, uint32_t recon_stride,
                                                uint32_t area_width, uint32_t area_height) {
    uint16_t *input = (uint16_t *)input8;
    uint16_t *recon = (uint16_t *)recon8;
    input += input_offset;
    recon += recon_offset;

    switch (area_width) {
    case 4: return highbd_sse_4xh_neon(input, input_stride, recon, recon_stride, area_height);
    case 8: return highbd_sse_8xh_neon(input, input_stride, recon, recon_stride, area_height);
    case 16: return highbd_sse_16xh_neon(input, input_stride, recon, recon_stride, area_height);
    case 32: return highbd_sse_32xh_neon(input, input_stride, recon, recon_stride, area_height);
    case 64: return highbd_sse_64xh_neon(input, input_stride, recon, recon_stride, area_height);
    case 128: return highbd_sse_128xh_neon(input, input_stride, recon, recon_stride, area_height);
    default: return highbd_sse_wxh_neon(input, input_stride, recon, recon_stride, area_width, area_height);
    }
}
